CN110810947A - Control method of heat pump type air conditioning clothes - Google Patents

Abstract

The invention discloses a control method of a heat pump type air conditioning clothes. The control method of the heat pump type air conditioning clothes comprises the following steps: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan to run at a low speed and controlling the second outer fan to stop running. According to the control method of the heat pump type air conditioning clothes, the heat pump type air conditioning clothes can be controlled, so that the environment around the heat pump type air conditioning clothes is matched with the comfortable feeling environment of a human body, and the use comfort of the human body is improved.

Description

Control method of heat pump type air conditioning clothes

Technical Field

The invention relates to the technical field of air conditioners, in particular to a control method of a heat pump type air conditioner clothes.

Background

The heat pump type air conditioning clothes are mainly applied to special high-temperature occasions or low-temperature occasions, and have no air conditioner or cooling and heating devices, such as: high-voltage line high-altitude erection of a national power grid, army and army warfare, duty traffic polices, army exercises, field investigation and the like.

The heat pump type air conditioning clothes are special in application environment and need to be in direct contact with a human body, so that the heat pump type air conditioning clothes are high in temperature and humidity control requirements, need to be matched with the comfort feeling environment of the human body, and otherwise, discomfort of a user can be caused, and the using effect of the heat pump type air conditioning clothes is reduced.

Disclosure of Invention

The invention aims to provide a control method of a heat pump type air conditioning clothes, which can control the heat pump type air conditioning clothes, so that the environment around the heat pump type air conditioning clothes is matched with the comfortable feeling environment of a human body, and the use comfort of the human body is improved.

According to an aspect of the present invention, there is provided a method of controlling a heat pump type air conditioning garment, including:

controlling the heating operation of the heat pump type air conditioning vest;

acquiring the ambient temperature and the ambient humidity outside the garment;

when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature;

controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump to operate according to the flow determined by the rated flow coefficient;

and controlling the first outer fan to run at a low speed and controlling the second outer fan to stop running.

Preferably, the control method further includes:

controlling the solution dehumidifying film outside the clothes to absorb moisture,

the voltage control formula when the solution dehumidifying film humidifies from the environment outside the clothes is as follows:

q3 ═ 0.35 × U +3, where Q3 is the moisture absorption amount of the solution desiccant membrane and U is the voltage applied to the solution desiccant membrane.

Preferably, the step of controlling the solution dehumidifying film outside the clothes to absorb moisture comprises:

applying a voltage of 12V to the solution dehumidifying film outside the clothes, and operating for t time;

detecting the humidity of the inner side of the clothes;

if the humidity inside the clothes meets a% < RH ≦ b%, maintaining the current voltage;

if the humidity RH of the inner side of the clothes is less than or equal to a%, applying voltage 24V to the dehumidifying film of the solution outside the clothes, and operating for t + △ t;

detecting the humidity of the inner side of the clothes;

if the humidity inside the clothes meets a% < RH ≦ b%, maintaining the current voltage;

if the humidity RH of the inner side of the clothes is less than or equal to a%, applying voltage (n-1) × 12V to the dehumidifying film of the solution on the outer side of the clothes, and running for t + (n-1) △ t;

the rest is done in sequence until the humidity of the inner side of the clothes meets a% < RH ≦ b%;

wherein n is the voltage regulation times of the dehumidifying membrane of the solution outside the clothes.

Preferably, the control method further includes:

the inner environment of the clothes is humidified by means of the flow of the booster water pump,

the formula of the booster water pump flow is as follows: q2 is K2 r, wherein q2 is the water pump flow, r is the rotational speed, and K2 is the pressure boost proportionality coefficient.

Preferably, the step of humidifying the inside environment of the garment by means of pressurizing the flow rate of the water pump comprises:

controlling the flow rate of the water pump according to the rotation speed of 400rpm, and running for t time;

detecting the humidity of the inner side of the clothes;

if the humidity of the inner side of the clothes meets a% < RH < b%, keeping the current water pump rotating speed;

if the humidity RH of the inner side of the clothes is less than or equal to a%, adjusting the rotating speed of the water pump to 500rpm, and operating for t + △ t;

detecting the humidity of the inner side of the clothes;

if the humidity of the inner side of the clothes meets the condition that a is more than RH and less than or equal to b percent, keeping the current rotating speed of the water pump;

if the humidity RH of the inner side of the clothes is less than or equal to a%, adjusting the rotating speed of the water pump to 400+ (n-1)100rpm, and operating for t + (n-1) △ t;

the rest is done in sequence until the humidity of the inner side of the clothes meets a% < RH ≦ b%;

wherein n is the adjusting times of the rotating speed of the water pump.

Preferably, the control method further includes:

determining the working voltage of the heat pump type air conditioning clothes;

detecting the power generation voltage of the heat pump type air conditioning clothes;

and selecting a power supply mode of the heat pump type air conditioning clothes according to the relation between the generating voltage and the working voltage of the heat pump type air conditioning clothes.

Preferably, the step of selecting a power supply mode of the heat pump type air conditioning clothes according to a relationship between a generated voltage and an operating voltage of the heat pump type air conditioning clothes includes:

if the power generation voltage of the heat pump type air conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air conditioning clothes, controlling the first switch and the second switch to be closed, controlling the third switch to be opened, and controlling the storage battery to supply power for the heat pump type air conditioning clothes;

if the power generation voltage of the heat pump type air conditioning clothes is within the working voltage range of the heat pump type air conditioning clothes, the first switch and the second switch are controlled to be switched off, the third switch is controlled to be switched on, and the power generation of the heat pump type air conditioning clothes is controlled to supply power for the heat pump type air conditioning clothes;

and if the generated voltage of the heat pump type air-conditioning clothes is larger than the maximum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch and the third switch to be closed, controlling the second switch to be opened, controlling the power generation of the heat pump type air-conditioning clothes to supply power for the heat pump type air-conditioning clothes, and simultaneously supplying power to the storage battery.

Preferably, if the generated voltage of the heat pump type air conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air conditioning clothes, the storage battery is used for supplying power to the heat pump type air conditioning clothes, meanwhile, the power generation of the heat pump type air conditioning clothes is monitored in real time, and if the generated voltage of the heat pump type air conditioning clothes is within the working voltage range of the heat pump type air conditioning clothes, the power supply strategy is readjusted, and the power generation of the heat pump type air conditioning clothes is controlled to supply power to the heat pump type air conditioning clothes.

Preferably, T1 ═ 5 ℃, T2 ═ 0 ℃, a ═ 45, b ═ 60, and c ═ 85.

The control method of the heat pump type air conditioning clothes comprises the following steps: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan to run at a low speed and controlling the second outer fan to stop running. The control method of the heat pump type air conditioning clothes can control the running frequency of the compressor and the flow of the circulating water pump according to the ambient temperature and the ambient humidity outside the clothes, and respectively control the rotating speeds of the two outer fans according to the ambient temperature and the ambient humidity outside the clothes, so that the temperature regulation is more refined, the regulation efficiency is higher, the regulation effect is better, the environment around the heat pump type air conditioning clothes can be more matched with the comfortable feeling environment of a human body, and the use comfort of the human body is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a schematic diagram of a heat pump type air conditioning garment according to an embodiment of the present invention;

fig. 2 is a flowchart of a control method of a heat pump type air conditioning clothes according to a first embodiment of the present invention;

fig. 3 is a flowchart of a control method of a heat pump type air conditioning clothes according to a second embodiment of the present invention;

fig. 4 is a flowchart of a control method of a heat pump type air conditioning clothes according to a third embodiment of the present invention;

fig. 5 is a flowchart of a control method of a heat pump type air conditioning clothes according to a fourth embodiment of the present invention;

fig. 6 is a flowchart of a control method of a heat pump type air conditioning clothes according to a fifth embodiment of the present invention;

fig. 7 is a flowchart of a control method of a heat pump type air conditioning clothes according to a sixth embodiment of the present invention;

fig. 8 is a flowchart of a control method of a heat pump type air conditioning clothes according to a seventh embodiment of the present invention;

fig. 9 is a flowchart of a control method of a heat pump type air conditioning clothes according to an eighth embodiment of the present invention;

fig. 10 is a flowchart of a control method of a heat pump type air conditioning clothes according to a ninth embodiment of the present invention;

fig. 11 is a flowchart of a control method of a heat pump type air conditioning clothes according to a tenth embodiment of the present invention;

fig. 12 is a flowchart of a control method of a heat pump type air conditioning clothes according to an eleventh embodiment of the present invention;

fig. 13 is a flowchart of a control method of a heat pump type air conditioning clothes according to a twelfth embodiment of the present invention;

fig. 14 is a flowchart of a control method of a heat pump type air conditioning garment according to a thirteenth embodiment of the present invention;

fig. 15 is a flowchart of a control method of a heat pump type air conditioning clothes according to a fourteenth embodiment of the present invention;

fig. 16 is a flowchart of a control method of a heat pump type air conditioning clothes according to a fifteenth embodiment of the present invention;

fig. 17 is a flowchart of a method of controlling a heat pump type air conditioning garment according to a sixteenth embodiment of the present invention;

FIG. 18 is a flowchart of a method for controlling a heat pump type air conditioning clothes according to a seventeenth embodiment of the present invention;

fig. 19 is a flowchart of a control method of a heat pump type air conditioning clothes according to an eighteenth embodiment of the present invention;

fig. 20 is a flowchart of a control method of a heat pump type air conditioning suit according to a nineteenth embodiment of the present invention;

fig. 21 is a flowchart of a control method of a heat pump type air conditioning garment according to a twentieth embodiment of the present invention;

fig. 22 is a flowchart of a control method of a heat pump type air conditioning clothes according to a twenty-first embodiment of the present invention;

fig. 23 is a flowchart of a control method of a heat pump type air conditioning garment according to a twenty-second embodiment of the present invention;

fig. 24 is a flowchart of a control method of a heat pump type air conditioning garment according to a twenty-third embodiment of the present invention;

fig. 25 is a flowchart of a method of controlling a heat pump type air conditioning clothes according to a twenty-fourth embodiment of the present invention.

Description of reference numerals: 1. a DC compressor; 2. a microchannel heat exchanger; 3. an electronic expansion valve; 4. a plate heat exchanger; 5. a first outer fan; 6. a second outer fan; 7. a water circulating pump; 8. a water tank; 9. a speed regulating switch; 10. an air conditioning garment; 11. a lithium battery; 12. a first switch; 13. a second switch; 14. a third switch; 15. a control panel; 16. a booster water pump; 17. a solution dehumidifying film on the inner side of the clothes; 18. the solution on the outer side of the clothes dehumidifies the membrane.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. Other embodiments may incorporate structural, logical, electrical, process, and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The scope of embodiments of the invention encompasses the full ambit of the claims, as well as all available equivalents of the claims. Embodiments may be referred to herein, individually or collectively, by the term "invention" merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed. Herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method or apparatus that comprises the element. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. As for the methods, products and the like disclosed by the embodiments, the description is simple because the methods correspond to the method parts disclosed by the embodiments, and the related parts can be referred to the method parts for description.

According to an embodiment of the present invention, a heat pump type air conditioner includes a refrigerant circulation system and a water circulation system.

The refrigerant circulating system comprises a direct-current compressor 1, a four-way reversing valve, an electronic expansion valve 3, a micro-channel heat exchanger 2 and a plate-type heat exchanger 4. The refrigerant flow path of the refrigerant circulation system is as follows: the compressor exhausts air- > the micro-channel heat exchanger 2- > the electronic expansion valve 3- > the plate heat exchanger 4- > the compressor returns air. The specific process is that the compressor compresses the refrigerant into high-temperature high-pressure gas to reach the micro-channel heat exchanger 2 for heat exchange and cooling with the outdoor environment, two cooling fans are arranged on the outdoor side for cooling the micro-channel heat exchanger 2, the cooled refrigerant becomes low-temperature liquid, becomes a low-temperature low-pressure gas-liquid mixed state after throttling, reaches the plate heat exchanger 4 for heat exchange with circulating water, cools the circulating water, and returns to an air suction port of the compressor after the temperature of the refrigerant is raised, so that the refrigerant circulation is completed.

The cooling fan is, for example, an axial fan. The two axial flow fans are independent from each other and are independently controlled, and the rotating speed and the working state of a single axial flow fan can be controlled, so that the heat dissipation capacity of the condenser can be adjusted according to the requirement. Because two mutually independent axial fans are adopted, the heat dissipation adjustment of the condenser is more flexible, the adjustment grade is more, the heat exchange adjustment amplitude of the condenser can be more fine and accurate, the fine adjustment of the heat exchange capability of the evaporator side is realized, the fine adjustment of the internal temperature and humidity of the air conditioning clothes 10 is further realized, the air conditioning clothes can be better matched with the requirement of human body temperature and humidity, and the use comfort of the human body is improved.

The electronic expansion valve 3 is used for controlling the refrigerant quantity of the system, thereby indirectly controlling the exhaust temperature of the compressor or the superheat degree of the system, ensuring that the compressor is in a safe working range, and simultaneously effectively improving the working energy efficiency of the compressor.

The water circulation system comprises a circulating water pump 7, a plate type heat exchanger 4, an air conditioner garment 10 and a water tank 8, wherein the plate type heat exchanger 4 belongs to a refrigerant circulation system and a water circulation system, water of the water circulation system exchanges heat with the refrigerant in the plate type heat exchanger 4, so that the water temperature is controlled, and the temperature in the air conditioner garment 10 is adjusted through the water temperature.

The circulation path of the water circulation system is as follows: the circulating water pump 7- > the plate heat exchanger 4- > the air-conditioning clothes 10- > the water tank 8- > the circulating water pump 7. Specifically, the circulating water pump 7 absorbs water from the water tank 8 and then pressurizes the water to the plate heat exchanger 4, the water inside the plate heat exchanger 4 exchanges heat with the refrigerant side and then is cooled and flows to the air conditioning clothes 10 to cool the human body, and the temperature of the water after absorbing the heat of the human body rises and returns to the water tank 8, so that a water circulating system is formed. Water circulating system sets up water tank 8 and avoids the water pump air suction as buffer, and 8 upper portions of water tank set up the moisturizing mouth, when being convenient for water capacity is not enough in water tank 8, can in time carry out the moisturizing from the outside, guarantee water circulating system's effective operation smoothly.

Still be provided with the relief valve on water circulating system's the water route, the water of water pipe the inside is heated and can be produced steam when heating winter, occupies the hydrologic cycle pipeline, and the increase resistance must in time exhaust and moisturizing, and the relief valve detects that water system pressure reaches automatic opening and pressure release after setting for the numerical value, and the warning is simultaneously added water and is operated. The relief valve is higher than the position of the water tank 8, so that only pressure relief steam is ensured, pressure is not released, the trouble of frequent water supplement is avoided, and the relief valve also plays a role in discharging air.

The heat pump type air conditioning clothes also comprise a power supply, the power supply of the heat pump type air conditioning clothes can be in various forms, for example, the heat pump type air conditioning clothes can be powered by a direct current power supply, the power supply is provided with a storage battery such as a lithium battery 11 and the like and an air conditioning clothes 10, and a speed regulating switch 9 can be arranged for regulating the rotating speed of a compressor. The number of the power supply control switches is three, and the lithium battery 11 and the air-conditioning clothes 10 are controlled in a combined mode to generate electricity to supply power to the refrigerant circulating system.

In this embodiment, the power control circuit includes a lithium battery 11 and an air-conditioning clothes 10, wherein the air-conditioning clothes 10 and the lithium battery 11 form a first current loop, a second current loop is formed between the lithium battery 11 and the compressor, a third current loop is formed between the air-conditioning clothes 10 and the compressor, a first switch 12 is arranged on the first current loop, a second switch 13 is arranged on the second current loop, a third switch 14 is arranged on the third current loop, the three second current loop and the third current loop connected with the compressor are connected to the compressor through a control board 15, and a speed regulating switch 9 on the air-conditioning clothes 10 is also connected to the compressor through the control board 15, and the rotating speed of the compressor is regulated through the control board 15.

The air-conditioning clothes 10 are divided into two layers, namely an outer layer and an inner layer, and water pipes are arranged between the two layers for cooling a human body, so that the skin temperature is reduced, and the comfort level of the human body is improved. The outer layer is formed by pressing multiple layers of materials and is divided into an adsorption layer, a middle layer and a heat insulation layer, the adsorption layer is made of materials for adsorbing solar energy, sunlight can be adsorbed to generate electricity, and the electricity generated by adsorbing the sunlight can be used for charging the lithium battery 11 or directly supplying electricity to the compressor. The inner layer material is divided into two layers, namely a heat transfer layer and a contact layer, the fabric of the heat transfer layer contains silver ions with high proportion, the heat transfer effect can be enhanced, the contact layer material is soft, and the contact layer material can not cause allergic influence on a human body through chemical treatment. The contact layer material is synthesized by a solution dehumidifying film to form a solution dehumidifying film 17 on the inner side of the clothes, which can absorb moisture on the surface of the skin, so that the skin is dry and dehumidified, the comfort of the human body is improved, the absorbed moisture is circulated to a solution dehumidifying film 18 on the outer side of the clothes by a booster pump 16 to be reduced, the effect of reducing the temperature of a condenser is achieved, and the heat exchange efficiency is improved. When heating in winter, the wet air outside the clothes is absorbed and pumped to the air conditioning clothes 10 to restore and increase the skin wettability and maintain the skin.

In the embodiment, the refrigeration frequency range of the compressor is 10-100 Hz, the number of the axial flow fan motors is 2, and the rotation speed of the fan is divided into low speed (100-300 rpm), medium speed (300-500 rpm) and high speed (500-800 rpm); the opening range of the electronic expansion valve 3 is 0-500B, and the adjustment precision is 1B. Of course, devices employing other ranges of values are possible and not limited thereto.

The following methods for controlling the heat pump type air conditioning clothes are all implemented based on the configuration of the heat pump type air conditioning clothes.

The application mainly relates to a control method of a heat pump type air conditioning clothes under a heating working condition.

When heat pump type air conditioner clothing is in under the operating mode of heating, divide 6 sections with clothing external environment temperature Tao in this application: the temperature of Tao is less than or equal to-5 ℃, the temperature of 5 ℃ and less than or equal to Tao is less than or equal to 0 ℃, the temperature of 0 ℃ and less than Tao is less than or equal to 5 ℃, the temperature of 5 ℃ and less than or equal to 10 ℃, the temperature of 10 ℃ and less than or equal to 16 ℃ and the temperature of 16 ℃ and less than Tao.

The ambient humidity range was divided into 4 sections: RH is less than or equal to 45 percent, RH is less than or equal to 60 percent when being more than 45 percent, RH is less than or equal to 85 percent when being more than 0, and RH is more than 85 percent.

According to the temperature and humidity range, the following situations can occur when the air conditioner is started to heat:

table 1

The heat pump type air conditioning clothes are controlled based on the outside-clothes environment temperature and the outside-clothes environment humidity during starting and heating.

In the present application, the following correspondence is mainly referred to for the corresponding compressor frequency control and water pump flow control.

Table 2

External loop temperature and frequency relation corresponding table

16℃<Maximum frequency of Tao heating: rated frequency coefficient	0.78*65＝51Hz
		10℃<The maximum heating frequency is less than or equal to 16 ℃ in Tao: rated frequency coefficient	0.96*65＝62Hz
5℃<Tao is less than or equal to 10 ℃ maximum heating frequency: rated frequency coefficient	1.1*65＝72Hz
		0℃<Tao is less than or equal to 5 ℃ maximum heating frequency: rated frequency coefficient	1.2*65＝78Hz
-5℃<Tao is less than or equal to 0 ℃ maximum heating frequency: rated frequency coefficient	1.36*65＝88Hz
		The maximum heating frequency at the temperature of less than or equal to-5 ℃ of Tao: rated frequency coefficient	1.45*65＝95Hz

Table 3

Relation between water pump flow and outer ring temperature

16℃<Maximum flow of Tao water pump: rated flow coefficient	0.45*0.8＝0.36
		10℃<The maximum flow of the water pump is less than or equal to 16 ℃ Tao: rated flow coefficient	0.85*0.8＝0.68
5℃<Tao is less than or equal to 10 ℃, and the maximum flow of the water pump is as follows: rated flow coefficient	0.95*0.8＝0.76
		0℃<Tao is less than or equal to 5 ℃, and the maximum flow of the water pump is as follows: rated flow coefficient	1.15*0.8＝0.92
-5℃<Tao is less than or equal to 0 ℃, and the maximum flow of the water pump is as follows: rated flow coefficient	1.65*0.8＝1.32
		The maximum flow of a water pump at the temperature of less than or equal to-5 ℃ of Tao: rated flow coefficient	2.5*0.8＝2.0

A circulating water pump: Q1-Q1-K1 (Q1-water pump flow, Q1-water pump rated flow, K1-proportionality coefficient).

Referring to fig. 2 in combination, according to a first embodiment of the present invention, a control method of a heat pump type air conditioning clothes includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature Tao of the environment outside the clothes is less than or equal to T1 and the humidity RH of the environment outside the clothes is less than or equal to a%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. The a% here is, for example, 45%, and can be specifically adjusted as necessary. T1 here is, for example, -5 ℃.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (95Hz and can be adjusted), and the flow of the circulating water pump 7 operates according to the flow of 2L/min (the maximum flow is 2L/min). When the skin of the human body is humidified, the humidification control can be carried out according to the following control logic:

the method comprises the steps of firstly controlling the heat pump type air conditioning clothes to be started for heating, then detecting the external environment humidity, feeding the detected external environment humidity back to a controller, judging whether the internal side humidity of the clothes needs to be humidified by the controller, if the external environment humidity does not need to be humidified, returning to the step of detecting the external environment humidity of the clothes, if the external environment humidity needs to be humidified, sending a humidification signal, controlling the humidification voltage, controlling the size of humidification voltage, controlling a solution dehumidification film on the air conditioning clothes 10, reducing the gap of holes, humidifying the internal side of the clothes, adjusting the internal side humidity of the clothes, feeding a voltage signal back to a circulating water pump 7, controlling the circulating amount of water, controlling the humidification amount in the clothes through the circulating water pump 7, and discharging rich water through a water pipe after the internal side humidity of the clothes meets the requirement of the comfort level of a human body so that the internal.

The control method of the heat pump type air conditioning clothes can control the running frequency of the compressor and the flow of the circulating water pump 7 according to the ambient temperature and the ambient humidity outside the clothes, and respectively control the rotating speeds of the two outer fans according to the ambient temperature and the ambient humidity outside the clothes, so that the temperature regulation is more refined, the regulation efficiency is higher, the regulation effect is better, the environment around the heat pump type air conditioning clothes can be more matched with the comfortable feeling environment of a human body, and the use comfort of the human body is improved.

Because the ambient temperature outside the clothes is lower, therefore need to reduce the rotational speed of two fans, thereby reduce the heat exchange efficiency of microchannel heat exchanger 2, avoid leading to the inboard temperature of clothes to reduce by a wide margin because the heat exchange efficiency of microchannel heat exchanger 2 is too high, because the ambient temperature outside the clothes is too low, consequently need make two fans operate at minimum wind speed, also be one of them fan low-speed operation, another fan stops, thereby furthest reduces the heat exchange efficiency of microchannel heat exchanger 2, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothes, avoid the energy that needs to consume in order to increase the inboard temperature of clothes, the operation efficiency of heat pump type air conditioner clothing has been improved.

In this embodiment, the control method further includes: the solution dehumidifying film 17 on the inner side of the clothes is controlled to humidify the environment on the inner side of the clothes, and the voltage control formula when the solution dehumidifying film humidifies the environment on the inner side of the clothes is as follows: q2 ═ 0.25 × U-2, where Q2 is the amount of dehumidification by the solution dehumidification membrane and U is the voltage applied to the solution dehumidification membrane. By controlling the voltage applied to the solution dehumidifying film 17 on the inner side of the clothes, the humidifying amount on the inner side of the clothes can be accurately controlled, so that the humidifying amount on the inner side of the clothes can be quickly adjusted to be within a proper humidity range, and the requirement of the humidity comfort degree of a human body is met.

The method for controlling the solution dehumidifying membrane 17 on the inner side of the clothes to humidify the environment on the inner side of the clothes comprises the steps of applying voltage 12V to the solution dehumidifying membrane 17 on the inner side of the clothes and running for t time, detecting the humidity on the inner side of the clothes, keeping the current voltage if the humidity on the inner side of the clothes is a% and RH are less than or equal to b, applying voltage 24V to the solution dehumidifying membrane 17 on the inner side of the clothes and running for t + △ t time if the humidity on the inner side of the clothes is less than or equal to a%, detecting the humidity on the inner side of the clothes, keeping the current voltage if the humidity on the inner side of the clothes is a% and RH are less than or equal to b, applying voltage (n-1) 12V to the solution dehumidifying membrane 17 on the inner side of the clothes and running for t + (n-1) △ t time, and the like in sequence until the humidity on the inner side of the clothes meets a% and RH are less than or.

Here, a% < RH ≦ b% is a humidity comfort level range of the human body, and the specific value is adjustable, and in this embodiment, the humidity comfort level range of the human body is 45% < RH ≦ 60%.

Through the mode that increases inboard solution dehumidification membrane 17 control voltage of clothing in proper order, can gradually adjust the humidity of clothing inboard for the inboard humidity of clothing is adjusted gradually to human humidity comfort level within range, satisfies human comfort level requirement. The mode that this embodiment adopted increase voltage in proper order is adjusted the humidification volume of the inboard solution dehumidification membrane 17 of clothing, can be fast conveniently with the inboard humidity adjustment of clothing to suitable within range, has increased the voltage shelves number of the inboard humidity control of clothing simultaneously, can select suitable voltage to adjust the inboard humidity of clothing, has reduced the energy and has consumed for the voltage of exerting can with keep the solution dehumidification membrane voltage phase-match of the inboard humidity of clothing, has improved the energy efficiency ratio of heat pump type air conditioner clothing.

The control method further comprises the following steps: the method includes the following steps that the inner side environment of the clothes is humidified by controlling the flow of a booster water pump, and the formula of the flow of the booster water pump is as follows: q2 is K2 r, wherein q2 is the water pump flow, r is the rotational speed, and K2 is the pressure boost proportionality coefficient. Wherein r ranges from 100 to 1000 rpm.

The step of humidifying the environment inside the clothes by means of boosting the flow of the water pump comprises the steps of controlling the flow of the water pump according to the rotation speed of 400rpm and operating for t time, detecting the humidity inside the clothes, keeping the current rotation speed of the water pump if the humidity inside the clothes meets a% and RH is less than or equal to b, adjusting the rotation speed of the water pump to 500rpm and operating for t + △ t time if the humidity inside the clothes is less than or equal to a%, detecting the humidity inside the clothes, keeping the current rotation speed of the water pump if the humidity inside the clothes meets a% and RH is less than or equal to b, adjusting the rotation speed of the water pump to 400+ (n-1)100rpm and operating for t + (n-1) △ t time, and repeating the steps until the humidity inside the clothes meets a% and RH is less than or equal to b, wherein n is the adjusting frequency of the rotation speed.

Through the mode of adjusting booster pump flow in proper order, also can conveniently adjust the inboard humidity of clothing to make the inboard humidity of clothing can reach human humidity comfort level requirement fast.

The above t and △ t can be flexibly set as long as they can last for a certain time until the adjusted humidity is stabilized within a certain range.

The control method further comprises the following steps: the solution dehumidifying film 18 outside the clothes is controlled to absorb moisture, and the voltage control formula when the solution dehumidifying film humidifies from the environment outside the clothes is as follows: q3 ═ 0.35 × U +3, where Q3 is the moisture absorption amount of the solution desiccant membrane and U is the voltage applied to the solution desiccant membrane. The solution dehumidifying film 18 outside the clothes is controlled to absorb moisture, moisture absorbed into the environment outside the clothes can be absorbed to humidify the inside of the clothes, so that the humidity in the clothes can meet the regulation requirement, and the redundant part can be discharged from the drain hole through the circulating water pump 7 after reduction, so that the humidity inside the clothes can be kept within the range of human comfort.

The step of controlling the solution dehumidifying membrane 18 outside the clothes to absorb moisture comprises the steps of applying voltage 12V to the solution dehumidifying membrane 18 outside the clothes and operating for t time, detecting humidity inside the clothes, keeping current voltage if the humidity inside the clothes meets a% < RH < b%, applying voltage 24V to the solution dehumidifying membrane 18 outside the clothes and operating for t + △ t time if the humidity inside the clothes does not meet a% < RH < b%, detecting humidity inside the clothes, keeping current voltage if the humidity inside the clothes meets a% < RH < b%, applying voltage (n-1) < 12V to the solution dehumidifying membrane 18 outside the clothes and operating for t + (n-1) △ t time if the humidity inside the clothes does not meet a% < RH < b%, and the like in sequence until the humidity inside the clothes meets a% < RH < b%, wherein n is the voltage adjusting times of the solution dehumidifying membrane 18 outside the clothes.

By controlling the voltage applied to the solution dehumidifying membrane 18 outside the clothes, the moisture absorption amount of the water suction circulation system can be conveniently adjusted, so that the moisture released into the clothes is adjusted, the humidity inside the clothes is adjusted, and the requirement on the comfort level of a human body is met.

The control method further comprises the following steps: determining the working voltage of the heat pump type air conditioning clothes; detecting the power generation voltage of the heat pump type air conditioning clothes; and selecting a power supply mode of the heat pump type air conditioning clothes according to the relation between the generating voltage and the working voltage of the heat pump type air conditioning clothes.

Through the power supply of reasonable selection heat pump type air conditioner clothing, not only can be so that the energy obtains more abundant effectual utilization, can effectively overcome the not enough problem of power supply that brings under the various unfavorable environment moreover to through having the energy such as the continuous supply of solar energy etc. to realize the power, improve heat pump type air conditioner clothing's suitability, can satisfy the operation requirement under the more various environment, can realize the stable power supply to compressor etc. through stable battery energy again simultaneously, satisfy heat pump type air conditioner clothing's stability requirement.

The step of selecting the power supply mode of the heat pump type air conditioning clothes according to the relation between the power generation voltage and the working voltage of the heat pump type air conditioning clothes comprises the following steps: if the power generation voltage of the heat pump type air-conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch 12 and the second switch 13 to be closed, controlling the third switch 14 to be opened, and controlling the storage battery to supply power for the heat pump type air-conditioning clothes; if the power generation voltage of the heat pump type air-conditioning clothes is within the working voltage range of the heat pump type air-conditioning clothes, the first switch 12 and the second switch 13 are controlled to be switched off, the third switch 14 is controlled to be switched on, and the power generation of the heat pump type air-conditioning clothes is controlled to supply power for the heat pump type air-conditioning clothes; and if the generated voltage of the heat pump type air-conditioning clothes is larger than the maximum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch 12 and the third switch 14 to be closed, controlling the second switch 13 to be opened, controlling the power generation of the heat pump type air-conditioning clothes to supply power for the heat pump type air-conditioning clothes, and simultaneously supplying power to the storage battery.

If the generated voltage of the heat pump type air conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air conditioning clothes, the power generation of the heat pump type air conditioning clothes is monitored in real time while the heat pump type air conditioning clothes are supplied with power through the storage battery, and if the generated voltage of the heat pump type air conditioning clothes is within the working voltage range of the heat pump type air conditioning clothes, the power supply strategy is readjusted, and the power generation of the heat pump type air conditioning clothes is controlled to supply power to the heat pump type air conditioning clothes.

In the embodiment, if the operating voltage range of the refrigerant circulation system of the heat pump type air-conditioning clothes is 16-48V, when the operating power supply of the refrigerant circulation system is selected, the generating voltage of the air-conditioning clothes 10 is detected firstly, when the generating voltage U is larger than 16V, the air-conditioning clothes 10 is selected to supply power to the compressor and the parts, the first switch 12 and the third switch 14 are kept closed, the second switch 13 is disconnected, the air-conditioning clothes 10 generates power and simultaneously supplies power to the refrigerant circulation system and the lithium battery 11, the generating voltage of the air-conditioning clothes 10 is periodically detected, the period is T, if the voltage is 16V-48V, the frequency of the compressor is kept unchanged, if not, the frequency of the compressor is firstly reduced to 0.8 times of the current frequency, the bus voltage requirement of the compressor is met, and the flow of the water pump is correspondingly increased to 1.. And when the voltage U is less than 16V, opening the third switch 14 to be disconnected, closing the first switch 12 and the second switch 13, selecting the lithium battery 11 to supply power to the refrigerant circulation system, continuously monitoring the generated voltage of the air-conditioning clothes 10, and returning the generated voltage of the air-conditioning clothes 10 to supply power to the refrigerant circulation system again if the condition that U is more than or equal to 16V is met.

If the operating voltage range of the refrigeration system of the air-conditioning clothes 10 is 24-48V, the generated voltage of the air-conditioning clothes 10 is detected, when the generated voltage U is larger than 24V, the self power generation of the air-conditioning clothes 10 is selected to supply power to a compressor and parts, the first switch 12 and the third switch 14 are kept closed, the second switch 13 is switched off, the air-conditioning clothes 10 generates power and simultaneously supplies power to a refrigerant circulating system and a lithium battery 11, the generated voltage of the air-conditioning clothes 10 is periodically detected, the period is T, if the generated voltage is 24V-48V, the frequency of the compressor is kept unchanged, if not, the frequency of the compressor is firstly reduced to 0.6 time of the current frequency, the requirement of the bus voltage of the compressor is met, the first outer fan 5 is kept unchanged, the second outer fan 6 is changed into an intermediate speed, and the flow. And when the generated voltage U is less than 24V, the third switch 14 is switched off, the first switch 12 and the second switch 13 are switched on, the lithium battery 11 is selected to supply power to the air conditioning system, the generated voltage of the air conditioning clothes 10 is continuously monitored, and if the generated voltage U is more than or equal to 24V, the step of returning the generated voltage of the air conditioning clothes 10 to supply power to the refrigerant circulating system is carried out again.

If the operating voltage range of the refrigeration system of the air-conditioning clothes 10 is 32-48V, the generated voltage of the air-conditioning clothes 10 is detected, when the generated voltage U is larger than 32V, the self power generation of the air-conditioning clothes 10 is selected to supply power to a compressor and parts, the first switch 12 and the third switch 14 are kept closed, the second switch 13 is switched off, the air-conditioning clothes 10 generates power and simultaneously supplies power to a refrigerant circulating system and a lithium battery 11, the generated voltage of the air-conditioning clothes 10 is periodically detected, the period is T, if the generated voltage is between 32V and 48V, the frequency of the compressor is kept unchanged, if not, the frequency of the compressor is firstly reduced to 0.6 time of the current frequency, the requirement of the bus voltage of the compressor is met, the first outer fan 5 is kept unchanged, the second outer fan 6 is changed into an intermediate speed, and the. And when the generated voltage U is less than 32V, the third switch 14 is switched off, the first switch 12 and the second switch 13 are switched on, the lithium battery 11 is selected to supply power to the air conditioning system, the generated voltage of the air conditioning clothes 10 is continuously monitored, and if the generated voltage U is more than or equal to 32V, the step of returning the generated voltage of the air conditioning clothes 10 to supply power to the refrigerant circulating system is carried out again.

If the operating voltage range of the refrigerating system of the air-conditioning clothes 10 is 32-48V, the generated voltage of the air-conditioning clothes 10 is detected, when the generated voltage U is larger than 36V, the self power generation of the air-conditioning clothes 10 is selected to supply power to a compressor and parts, the first switch 12 and the third switch 14 are kept closed, the second switch 13 is switched off, the air-conditioning clothes 10 generates power and simultaneously supplies power to a refrigerant circulating system and a lithium battery 11, the generated voltage of the air-conditioning clothes 10 is periodically detected, the period is T, if the generated voltage is 36V-48V, the frequency of the compressor is kept unchanged, if not, the frequency of the compressor is firstly reduced to 0.8 time of the current frequency, the requirement of the bus voltage of the compressor is met, the first outer fan 5 is kept unchanged, the second outer fan 6 is changed into low speed, and the flow of a. And when the generated voltage U is less than 36V, the third switch 14 is switched off, the first switch 12 and the second switch 13 are switched on, the lithium battery 11 is selected to supply power to the air conditioning system, the generated voltage of the air conditioning clothes 10 is continuously monitored, and if the generated voltage U is more than or equal to 36V, the step of returning the generated voltage of the air conditioning clothes 10 to supply power to the refrigerant circulating system is carried out again.

Referring to fig. 3 in combination, a second embodiment according to the present invention is substantially the same as the first embodiment except that in the present embodiment, a method for controlling a heat pump type air conditioning garment, includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity RH of the environment outside the clothes is less than or equal to a%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to operate at a medium speed and controlling the second outer fan 6 to stop operating. Here, T1 is-5 ℃, T2 is 0 ℃ and a is 45.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (88Hz, adjustable), and the flow of the circulating water pump 7 operates according to the flow of 1.32L/min (the maximum flow is 2L/min).

Because the ambient temperature outside the clothes is lower, consequently, need reduce the rotational speed of two fans, thereby reduce microchannel heat exchanger 2's heat exchange efficiency, avoid leading to the inboard temperature of clothing to reduce by a wide margin because microchannel heat exchanger 2's heat exchange efficiency is too high, because the ambient temperature outside the clothes is slightly higher than first embodiment, consequently, need further improve the wind speed of fan on the basis of first embodiment, namely one of them fan medium speed operation, another fan stops, thereby reduce microchannel heat exchanger 2's heat exchange efficiency to a certain extent, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothing, avoid the required energy that consumes in order to increase the inboard temperature of clothing, the operation efficiency of heat pump type air conditioner clothing has been improved.

Referring to fig. 4 in combination, a third embodiment according to the present invention is substantially the same as the first embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T2 of the environment outside the clothes is more than or equal to Tao and less than or equal to T3 and the humidity RH of the environment outside the clothes is less than or equal to a%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a high speed and controlling the second outer fan 6 to stop running. Here, T2 is 0 ℃, T3 is 5 ℃ and a is 45.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (78Hz, adjustable), and the flow of the circulating water pump 7 operates according to the flow of 0.92L/min (the maximum flow is 2L/min).

Because the ambient temperature outside the clothing is lower, consequently, need reduce the rotational speed of two fans, thereby reduce microchannel heat exchanger 2's heat exchange efficiency, avoid leading to the inboard temperature of clothing to reduce by a wide margin because microchannel heat exchanger 2's heat exchange efficiency is too high, because the ambient temperature outside the clothing is slightly higher than the second embodiment, consequently, need further improve the wind speed of fan on the basis of second embodiment, also be one of them fan high-speed operation, another fan stops, thereby reduce microchannel heat exchanger 2's heat exchange efficiency to a certain extent, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothing, avoid the energy that needs to consume in order to increase the inboard temperature of clothing, the operation efficiency of heat pump type air conditioner clothing has been improved.

Referring to fig. 5 in combination, a fourth embodiment according to the present invention is substantially the same as the third embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T3 of the environment outside the clothes is more than or equal to Tao and less than or equal to T4 and the humidity RH of the environment outside the clothes is less than or equal to a%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a high speed and controlling the second outer fan 6 to run at a low speed. Here, T3 is 5 ℃, T4 is 10 ℃ and a is 45.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (72Hz, adjustable), and the flow of the circulating water pump 7 operates according to the flow of 0.76L/min (the maximum flow is 2L/min).

Because the ambient temperature outside the clothing is lower, consequently, need reduce the rotational speed of two fans, thereby reduce microchannel heat exchanger 2's heat exchange efficiency, avoid leading to the inboard temperature of clothing to reduce by a wide margin because microchannel heat exchanger 2's heat exchange efficiency is too high, because the ambient temperature outside the clothing is slightly higher than the third embodiment, consequently, need further improve the wind speed of fan on the basis of third embodiment, also be one of them fan high-speed operation, another fan low-speed operation, thereby from reducing microchannel heat exchanger 2's heat exchange efficiency to a certain extent, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothing, avoid the energy that needs to consume in order to increase the inboard temperature of clothing, the operation efficiency of heat pump type air conditioner clothing has been improved.

Referring to fig. 6 in combination, a fifth embodiment according to the present invention is substantially the same as the fourth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T4 of the environment outside the clothes is more than or equal to Tao and less than or equal to T5 and the humidity RH of the environment outside the clothes is less than or equal to a%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to operate at a high speed and controlling the second outer fan 6 to operate at a medium speed. Wherein T4 ═ 10 ℃, T5 ═ 16 ℃, and a ═ 45.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (62Hz, adjustable), and the flow of the circulating water pump 7 operates according to the flow of 0.68L/min (the maximum flow is 2L/min).

Because the ambient temperature outside the clothes is higher, therefore need to improve the rotational speed of two fans, thereby improve the heat exchange efficiency of microchannel heat exchanger 2, avoid resulting in the inboard high temperature of clothes because the heat exchange efficiency of microchannel heat exchanger 2 is low excessively, because the ambient temperature outside the clothes is slightly higher than the fourth embodiment, consequently need further improve the wind speed of fan on the basis of second embodiment, namely one of them fan high-speed operation, another fan medium-speed operation, thereby from the heat exchange efficiency of increase microchannel heat exchanger 2 to a certain extent, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothes, avoid adjusting the influence of microchannel heat exchanger 2 heat transfer to the inboard temperature of clothes and the energy that needs to consume, the operation efficiency of heat pump type air conditioner clothing has been improved.

Referring to fig. 7 in combination, a sixth embodiment according to the present invention is substantially the same as the fifth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the outdoor environment temperature T5 is less than Tao and the outdoor environment humidity RH is less than or equal to a%, determining the compressor operation frequency coefficient and the circulating water pump flow coefficient at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to operate at a high speed and controlling the second outer fan 6 to operate at a high speed. Where T5 ═ 16 ℃, a ═ 45.

Generally speaking, the optimal humidity for comfortable feeling of human skin is about 45% -60%, when the humidity RH of the environment outside the clothes is less than or equal to 45%, the human skin is dry and uncomfortable, the human body needs to be humidified and the body feeling needs to be improved, at the moment, the compressor operates according to the frequency f (51Hz, adjustable), and the flow of the circulating water pump 7 operates according to the flow of 0.36L/min (the maximum flow is 2L/min).

Because the ambient temperature outside the clothes is higher, therefore need to improve the rotational speed of two fans, thereby improve the heat exchange efficiency of microchannel heat exchanger 2, avoid leading to the inboard high temperature of clothes because the heat exchange efficiency of microchannel heat exchanger 2 is low excessively, because the ambient temperature outside the clothes is slightly higher than the fifth embodiment, consequently need further improve the wind speed of fan on the basis of the second embodiment, also be one of them fan high-speed operation, another fan high-speed operation, make two equal maximum rotational speed operation of fan, thereby make the heat exchange efficiency maximize of microchannel heat exchanger 2, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothes, avoid adjusting the influence of microchannel heat exchanger 2 heat transfer to the inboard temperature of clothes and the energy that needs to consume, the operation efficiency of heat pump type air conditioner clothing has been improved.

Referring to fig. 8 in combination, according to a seventh embodiment of the present invention, a control method of a heat pump type air conditioning clothes includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature Tao of the environment outside the clothes is less than or equal to T1 and the humidity a% of the environment outside the clothes is less than or equal to RH and less than or equal to b%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. T1 here is, for example, -5 ℃, a 45 and b 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor is operated at a frequency f (95Hz, adjustable), and the circulating water pump 7 is operated at a flow rate of 2L/min (maximum flow rate of 2L/min).

The control method of the heat pump type air conditioning clothes can control the running frequency of the compressor and the flow of the circulating water pump 7 according to the ambient temperature and the ambient humidity outside the clothes, and respectively control the rotating speeds of the two outer fans according to the ambient temperature and the ambient humidity outside the clothes, so that the temperature regulation is more refined, the regulation efficiency is higher, the regulation effect is better, the environment around the heat pump type air conditioning clothes can be more matched with the comfortable feeling environment of a human body, and the use comfort of the human body is improved.

Because the ambient temperature outside the clothes is lower, therefore need to reduce the rotational speed of two fans, thereby reduce the heat exchange efficiency of microchannel heat exchanger 2, avoid leading to the inboard temperature of clothes to reduce by a wide margin because the heat exchange efficiency of microchannel heat exchanger 2 is too high, because the ambient temperature outside the clothes is too low, consequently need make two fans operate at minimum wind speed, also be one of them fan low-speed operation, another fan stops, thereby furthest reduces the heat exchange efficiency of microchannel heat exchanger 2, reduce the adverse effect that microchannel heat exchanger 2 heat transfer brought the inboard temperature of clothes, avoid the energy that needs to consume in order to increase the inboard temperature of clothes, the operation efficiency of heat pump type air conditioner clothing has been improved.

The control method further comprises the following steps: the solution dehumidifying film 18 outside the clothes is controlled to absorb moisture, and the voltage control formula when the solution dehumidifying film humidifies from the environment outside the clothes is as follows: q3 ═ 0.35 × U +3, where Q3 is the moisture absorption amount of the solution desiccant membrane and U is the voltage applied to the solution desiccant membrane. The solution dehumidifying film 18 outside the clothes is controlled to absorb moisture, moisture absorbed into the environment outside the clothes can be absorbed to humidify the inside of the clothes, so that the humidity in the clothes can meet the regulation requirement, and the redundant part can be discharged from the drain hole through the circulating water pump 7 after reduction, so that the humidity inside the clothes can be kept within the range of human comfort.

The step of controlling the solution dehumidifying membrane 18 outside the clothes to absorb moisture comprises the steps of applying voltage 12V to the solution dehumidifying membrane 18 outside the clothes and operating for t time, detecting humidity inside the clothes, keeping current voltage if the humidity inside the clothes meets a% < RH < b%, applying voltage 24V to the solution dehumidifying membrane 18 outside the clothes and operating for t + △ t time if the humidity inside the clothes does not meet a% < RH < b%, detecting humidity inside the clothes, keeping current voltage if the humidity inside the clothes meets a% < RH < b%, applying voltage (n-1) < 12V to the solution dehumidifying membrane 18 outside the clothes and operating for t + (n-1) △ t time if the humidity inside the clothes does not meet a% < RH < b%, and the like in sequence until the humidity inside the clothes meets a% < RH < b%, wherein n is the voltage adjusting times of the solution dehumidifying membrane 18 outside the clothes.

By controlling the voltage applied to the solution dehumidifying membrane 18 outside the clothes, the moisture absorption amount of the water suction circulation system can be conveniently adjusted, so that the moisture released into the clothes is adjusted, the humidity inside the clothes is adjusted, and the requirement on the comfort level of a human body is met.

The moisture absorption amount of the solution dehumidifying membrane 18 outside the clothes is adjusted by the mode of sequentially increasing the voltage, the humidity inside the clothes can be quickly and conveniently adjusted to a proper range, the voltage grade of the humidity adjustment inside the clothes is increased, the humidity inside the clothes can be adjusted by selecting proper voltage, energy consumption is reduced, applied voltage can be matched with the voltage of the solution dehumidifying membrane keeping the humidity inside the clothes, and the energy efficiency ratio of the heat pump type air conditioning clothes is improved.

The control method further comprises the following steps: the inner side environment of the clothes is humidified by the way of the flow of the booster water pump, and the formula of the flow of the booster water pump is as follows: q2 is K2 r, wherein q2 is the water pump flow, r is the rotational speed, and K2 is the pressure boost proportionality coefficient. Wherein r ranges from 100 to 1000 rpm.

The step of humidifying the environment inside the clothes by means of boosting the flow of the water pump comprises the steps of controlling the flow of the water pump according to the rotation speed of 400rpm and operating for t time, detecting the humidity inside the clothes, keeping the current rotation speed of the water pump if the humidity inside the clothes meets a% and RH is less than or equal to b, adjusting the rotation speed of the water pump to 500rpm and operating for t + △ t time if the humidity inside the clothes is less than or equal to a%, detecting the humidity inside the clothes, keeping the current rotation speed of the water pump if the humidity inside the clothes meets a% and RH is less than or equal to b, adjusting the rotation speed of the water pump to 400+ (n-1)100rpm and operating for t + (n-1) △ t time, and repeating the steps until the humidity inside the clothes meets a% and RH is less than or equal to b, wherein n is the adjusting frequency of the rotation speed.

Through the mode of adjusting booster pump flow in proper order, also can conveniently adjust the inboard humidity of clothing to make the inboard humidity of clothing can reach human humidity comfort level requirement fast.

The above t and △ t can be flexibly set as long as they can last for a certain time until the adjusted humidity is stabilized within a certain range.

The control method further comprises the following steps: determining the working voltage of the heat pump type air conditioning clothes; detecting the power generation voltage of the heat pump type air conditioning clothes; and selecting a power supply mode of the heat pump type air conditioning clothes according to the relation between the generating voltage and the working voltage of the heat pump type air conditioning clothes.

Through the power supply of reasonable selection heat pump type air conditioner clothing, not only can be so that the energy obtains more abundant effectual utilization, can effectively overcome the not enough problem of power supply that brings under the various unfavorable environment moreover to through having the energy such as the continuous supply of solar energy etc. to realize the power, improve heat pump type air conditioner clothing's suitability, can satisfy the operation requirement under the more various environment, can realize the stable power supply to compressor etc. through stable battery energy again simultaneously, satisfy heat pump type air conditioner clothing's stability requirement.

The step of selecting the power supply mode of the heat pump type air conditioning clothes according to the relation between the power generation voltage and the working voltage of the heat pump type air conditioning clothes comprises the following steps: if the power generation voltage of the heat pump type air-conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch 12 and the second switch 13 to be closed, controlling the third switch 14 to be opened, and controlling the storage battery to supply power for the heat pump type air-conditioning clothes; if the power generation voltage of the heat pump type air-conditioning clothes is within the working voltage range of the heat pump type air-conditioning clothes, the first switch 12 and the second switch 13 are controlled to be switched off, the third switch 14 is controlled to be switched on, and the power generation of the heat pump type air-conditioning clothes is controlled to supply power for the heat pump type air-conditioning clothes; and if the generated voltage of the heat pump type air-conditioning clothes is larger than the maximum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch 12 and the third switch 14 to be closed, controlling the second switch 13 to be opened, controlling the power generation of the heat pump type air-conditioning clothes to supply power for the heat pump type air-conditioning clothes, and simultaneously supplying power to the storage battery.

If the generated voltage of the heat pump type air conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air conditioning clothes, the power generation of the heat pump type air conditioning clothes is monitored in real time while the heat pump type air conditioning clothes are supplied with power through the storage battery, and if the generated voltage of the heat pump type air conditioning clothes is within the working voltage range of the heat pump type air conditioning clothes, the power supply strategy is readjusted, and the power generation of the heat pump type air conditioning clothes is controlled to supply power to the heat pump type air conditioning clothes.

Referring to fig. 9 in combination, an eighth embodiment according to the present invention is substantially the same as the seventh embodiment except that in the present embodiment, a method for controlling a heat pump type air conditioning garment, comprising: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity a% of the environment outside the clothes is more than or equal to RH and less than or equal to b%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T1 is-5 ℃, T2 is 0 ℃, a is 45, and b is 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at the frequency f (88Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 1.32L/min (maximum flow rate of 2L/min).

Referring to fig. 10 in combination, a ninth embodiment according to the present invention is substantially the same as the eighth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T2 of the environment outside the clothes is more than or equal to Tao and less than or equal to T3 and the humidity a% of the environment outside the clothes is more than or equal to RH and less than or equal to b%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T2 is 0 ℃, T3 is 5 ℃, a is 45 and b is 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (78Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.92L/min (maximum flow rate 2L/min).

Referring to fig. 11 in combination, a tenth embodiment according to the present invention is substantially the same as the ninth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T3 of the environment outside the clothes is more than or equal to Tao and less than or equal to T4 and the humidity a% of the environment outside the clothes is more than or equal to RH and less than or equal to b%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T3 is 5 ℃, T4 is 10 ℃, a is 45 and b is 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (72Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.76L/min (maximum flow rate of 2L/min).

Referring to fig. 12 in combination, an eleventh embodiment according to the present invention is substantially the same as the tenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T4 of the environment outside the clothes is more than or equal to Tao and less than or equal to T5 and the humidity a% of the environment outside the clothes is more than or equal to RH and less than or equal to b%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Wherein T4 ═ 10 ℃, T5 ═ 16 ℃, a ═ 45, and b ═ 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (62Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.68L/min (maximum flow rate of 2L/min).

Referring to fig. 13 in combination, a twelfth embodiment according to the present invention is substantially the same as the eleventh embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T5 of the environment outside the clothes is less than Tao and the humidity a% of the environment outside the clothes is less than RH and less than or equal to b%, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Where T5 ═ 16 ℃, a ═ 45, and b ═ 60.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 45% < RH is less than or equal to 60%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (51Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.36L/min (maximum flow rate 2L/min).

Referring to fig. 14 in combination, a thirteenth embodiment according to the present invention is substantially the same as the seventh embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature Tao of the environment outside the clothes is less than or equal to T1 and the humidity b% of the environment outside the clothes is less than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. T1 here is, for example, -5 ℃, b 60 and c 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor is operated at a frequency f (95Hz, adjustable), and the circulating water pump 7 is operated at a flow rate of 2L/min (maximum flow rate of 2L/min).

Referring to fig. 15 in combination, a fourteenth embodiment according to the present invention is substantially the same as the thirteenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T1 is-5 ℃, T2 is 0 ℃, b is 60, and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at the frequency f (88Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 1.32L/min (maximum flow rate of 2L/min).

Referring to fig. 16 in combination, a fifteenth embodiment according to the present invention is substantially the same as the fourteenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T2 of the environment outside the clothes is more than or equal to Tao and less than or equal to T3 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T2 is 0 ℃, T3 is 5 ℃, b is 60 and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (78Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.92L/min (maximum flow rate 2L/min).

Referring to fig. 17 in combination, a sixteenth embodiment according to the present invention is substantially the same as the fifteenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T3 of the environment outside the clothes is more than or equal to Tao and less than or equal to T4 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T3 is 5 ℃, T4 is 10 ℃, b is 60 and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (72Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.76L/min (maximum flow rate of 2L/min).

Referring to fig. 18 in combination, a seventeenth embodiment according to the present invention is substantially the same as the sixteenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T4 of the environment outside the clothes is more than or equal to Tao and less than or equal to T5 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Wherein T4 ═ 10 ℃, T5 ═ 16 ℃, b ═ 60, and c ═ 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (62Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.68L/min (maximum flow rate of 2L/min).

Referring to fig. 19 in combination, an eighteenth embodiment according to the present invention is substantially the same as the seventeenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the outdoor environment temperature T5 is less than Tao and the outdoor environment humidity is less than b% and less than RH and less than or equal to c%, determining the compressor operation frequency coefficient and the circulating water pump flow coefficient under the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Where T5 ═ 16 ℃, b ═ 60, and c ═ 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 60% < RH < 85%, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is affected, the pre-dehumidification operation must be performed on the wind entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (51Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.36L/min (maximum flow rate 2L/min).

Referring to fig. 20 in combination, a nineteenth embodiment according to the present invention is substantially the same as the thirteenth embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature Tao of the environment outside the clothes is less than or equal to T1 and the humidity c% of the environment outside the clothes is less than RH, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. T1 here is, for example, -5 ℃ and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor is operated at a frequency f (95Hz, adjustable), and the circulating water pump 7 is operated at a flow rate of 2L/min (maximum flow rate of 2L/min).

Referring to fig. 21 in combination, a twentieth embodiment according to the present invention is substantially the same as the nineteenth embodiment except that, in the present embodiment, a method for controlling a heat pump type air conditioning garment, comprising: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T1 of the environment outside the clothes is more than or equal to T2 and the humidity c% of the environment outside the clothes is less than RH, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump under the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T1 is-5 ℃, T2 is 0 ℃ and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at the frequency f (88Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 1.32L/min (maximum flow rate of 2L/min).

Referring to fig. 22 in combination, a twenty-first embodiment according to the present invention is substantially the same as the twentieth embodiment except that, in the present embodiment, a method of controlling a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T2 of the environment outside the clothes is more than or equal to T3 and the humidity c% of the environment outside the clothes is less than RH, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump under the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T2 is 0 ℃, T3 is 5 ℃ and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (78Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.92L/min (maximum flow rate 2L/min).

Referring to fig. 23 in combination, a twenty-second embodiment according to the present invention is substantially the same as the twenty-first embodiment except that, in the present embodiment, a method of controlling a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T3 of the environment outside the clothes is more than or equal to T4 and the humidity c% of the environment outside the clothes is less than RH, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump under the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Here, T3 is 5 ℃, T4 is 10 ℃ and c is 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (72Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.76L/min (maximum flow rate of 2L/min).

Referring to fig. 24 in combination, a twenty-third embodiment according to the present invention is substantially the same as the twenty-second embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning vest; acquiring the ambient temperature and the ambient humidity outside the garment; when the temperature T4 of the environment outside the clothes is more than or equal to T5 and the humidity c% of the environment outside the clothes is less than RH, determining the operation frequency coefficient of the compressor and the flow coefficient of the circulating water pump under the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Wherein T4 ═ 10 ℃, T5 ═ 16 ℃, and c ═ 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (62Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.68L/min (maximum flow rate of 2L/min).

Referring to fig. 25 in combination, a twenty-fourth embodiment according to the present invention is substantially the same as the twenty-third embodiment except that, in the present embodiment, a control method of a heat pump type air conditioning garment includes: controlling the heating operation of the heat pump type air conditioning clothes; acquiring the ambient temperature and the ambient humidity outside the garment; when the outdoor environment temperature T5 is less than Tao and the outdoor environment humidity is less than RH by c%, determining the compressor operation frequency coefficient and the circulating water pump flow coefficient at the environment temperature; controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump 7 to operate according to the flow determined by the rated flow coefficient; and controlling the first outer fan 5 to run at a low speed and controlling the second outer fan 6 to stop running. Where T5 ═ 16 ℃, c ═ 85.

Generally speaking, the optimal humidity for the comfortable feeling of human skin is about 45% -60%, when the ambient humidity outside the clothes is 85% < RH, the humidity meets the requirement of human humidity, the human body does not need to be humidified, but the humidity outside the clothes can make the plate heat exchanger 4 frosted quickly, the heating effect is influenced, the pre-dehumidification operation must be carried out on the air entering and flowing through the plate heat exchanger 4, only the dry air entering is ensured, the heating effect is improved, and the moisture absorbed by the solution dehumidifying membrane 18 outside the clothes reaches the drain pipe through the booster water pump 16 and is directly discharged. At this time, the compressor was operated at a frequency f (51Hz, adjustable), and the circulating water pump 7 was operated at a flow rate of 0.36L/min (maximum flow rate 2L/min).

It is to be understood that the present invention is not limited to the procedures and structures described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (9)

1. A control method of a heat pump type air conditioning clothes is characterized by comprising the following steps:

controlling the heating operation of the heat pump type air conditioning vest;

acquiring the ambient temperature and the ambient humidity outside the garment;

when the temperature T1 of the environment outside the clothes is more than or equal to Tao and less than or equal to T2 and the humidity b% of the environment outside the clothes is more than or equal to RH and less than or equal to c%, determining the operating frequency coefficient of the compressor and the flow coefficient of the circulating water pump at the environment temperature;

controlling the compressor to operate according to the frequency determined by the rated frequency coefficient, and controlling the circulating water pump to operate according to the flow determined by the rated flow coefficient;

and controlling the first outer fan to run at a low speed and controlling the second outer fan to stop running.

2. The control method according to claim 1, characterized by further comprising: controlling the solution dehumidifying film outside the clothes to absorb moisture,

the voltage control formula when the solution dehumidifying film humidifies from the environment outside the clothes is as follows:

q3 ═ 0.35 × U +3, where Q3 is the moisture absorption amount of the solution desiccant membrane and U is the voltage applied to the solution desiccant membrane.

3. The method for controlling moisture absorption of a solution dehumidifying membrane according to claim 2, wherein the step of controlling moisture absorption of the solution dehumidifying membrane outside the clothes comprises:

applying a voltage of 12V to the solution dehumidifying film outside the clothes, and operating for t time;

detecting the humidity of the inner side of the clothes;

if the humidity inside the clothes meets a% < RH ≦ b%, maintaining the current voltage;

if the humidity RH of the inner side of the clothes is less than or equal to a%, applying voltage 24V to the dehumidifying film of the solution outside the clothes, and operating for t + △ t;

detecting the humidity of the inner side of the clothes;

if the humidity inside the clothes meets a% < RH ≦ b%, maintaining the current voltage;

if the humidity RH of the inner side of the clothes is less than or equal to a%, applying voltage (n-1) × 12V to the dehumidifying film of the solution on the outer side of the clothes, and running for t + (n-1) △ t;

the rest is done in sequence until the humidity of the inner side of the clothes meets a% < RH ≦ b%;

wherein n is the voltage regulation times of the dehumidifying membrane of the solution outside the clothes.

4. The control method according to claim 1, characterized by further comprising: the inner environment of the clothes is humidified by means of the flow of the booster water pump,

the formula of the booster water pump flow is as follows: q2 is K2 r, wherein q2 is the water pump flow, r is the rotational speed, and K2 is the pressure boost proportionality coefficient.

5. The control method of claim 4, wherein the step of humidifying the inside environment of the garment by means of the flow rate of the pressurized water pump comprises:

controlling the flow rate of the water pump according to the rotation speed of 400rpm, and running for t time;

detecting the humidity of the inner side of the clothes;

if the humidity of the inner side of the clothes meets a% < RH < b%, keeping the current water pump rotating speed;

if the humidity RH of the inner side of the clothes is less than or equal to a%, adjusting the rotating speed of the water pump to 500rpm, and operating for t + △ t;

detecting the humidity of the inner side of the clothes;

if the humidity of the inner side of the clothes meets the condition that a is more than RH and less than or equal to b percent, keeping the current rotating speed of the water pump;

if the humidity RH of the inner side of the clothes is less than or equal to a%, adjusting the rotating speed of the water pump to 400+ (n-1)100rpm, and operating for t + (n-1) △ t;

the rest is done in sequence until the humidity of the inner side of the clothes meets a% < RH ≦ b%;

wherein n is the adjusting times of the rotating speed of the water pump.

6. The control method according to claim 1, characterized by further comprising: determining the working voltage of the heat pump type air conditioning clothes;

detecting the power generation voltage of the heat pump type air conditioning clothes;

and selecting a power supply mode of the heat pump type air conditioning clothes according to the relation between the generating voltage and the working voltage of the heat pump type air conditioning clothes.

7. The control method according to claim 6, wherein the step of selecting a power supply manner of the heat pump type air conditioning clothes according to a relationship between the generated voltage and the operating voltage of the heat pump type air conditioning clothes comprises: if the power generation voltage of the heat pump type air conditioning clothes is smaller than the minimum value of the working voltage range of the heat pump type air conditioning clothes, controlling the first switch and the second switch to be closed, controlling the third switch to be opened, and controlling the storage battery to supply power for the heat pump type air conditioning clothes;

if the power generation voltage of the heat pump type air conditioning clothes is within the working voltage range of the heat pump type air conditioning clothes, the first switch and the second switch are controlled to be switched off, the third switch is controlled to be switched on, and the power generation of the heat pump type air conditioning clothes is controlled to supply power for the heat pump type air conditioning clothes;

and if the generated voltage of the heat pump type air-conditioning clothes is larger than the maximum value of the working voltage range of the heat pump type air-conditioning clothes, controlling the first switch and the third switch to be closed, controlling the second switch to be opened, controlling the power generation of the heat pump type air-conditioning clothes to supply power for the heat pump type air-conditioning clothes, and simultaneously supplying power to the storage battery.

8. The control method of claim 7, wherein if the generated voltage of the heat pump type air conditioning clothes is less than the minimum value of the operating voltage range of the heat pump type air conditioning clothes, the power generation of the heat pump type air conditioning clothes is monitored in real time while the power is supplied to the heat pump type air conditioning clothes through the storage battery, and if the generated voltage of the heat pump type air conditioning clothes is within the operating voltage range of the heat pump type air conditioning clothes, the power supply strategy is readjusted to control the power generation of the heat pump type air conditioning clothes to supply power to the heat pump type air conditioning clothes.

9. A control method according to claim 3, characterized in that T1-5 ℃, T2-0 ℃, a-45, b-60, c-85.

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